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The study on Comparison Evaluation of Shear Bond Strength of Co-Cr Based Alloy using for Porcelain Fused Metal
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±èÈñÁø ( Kim Hee-Jin ) - ºÎ»ê°¡Å縯´ëÇб³ »ý¸í°úÇдëÇпø
±èºÎ¼· ( Kim Bu-Sob ) - ºÎ»ê°¡Å縯´ëÇб³ º¸°Ç°úÇдëÇÐ Ä¡±â°øÇаú
KMID : 0362120100320030111
Abstract
Purpose: The purpose of this study was to observe the microstructural changes of surface in the specimens, performing the shear bond strength testing. The currently most used non-precious alloys are nickel-chromium based alloys with or without beryllium. However, their biocompatibility has been questioned concerning possible damages to the health of the patient and professionals involved in the fabrication of prosthesis caused by long exposure to Ni and Be. An option to nickel-chromium alloys is the cobalt-chromium alloy, an alternative that does not sacrifice the physical properties of the metal porcelain systems. Studies in the animals substantially show that the cobalt-chromium alloys are relatively well tolerated, being therefore more biocompatible than the nickelchromium alloys.
Methods: Non-addition Be to nickel-chromium based alloy(Bellabond plus) and cobalt-chromium alloy which has been widely used(Wirobond C) fused with ZEO light porcelain classified control group and cobalt-chromium alloy which is developing alloy of Alphadent company in Korea(Alphadent alloy) fused with ZEO light porcelain classified experimental group. The specimens of 4 4 0.5 were prepared as-cast and as-opaque to cast body to analyze the mechanical characteristic change, the microstructure of alloy surface. The phase change was used to observe through XRD analysis and OM/SEM was used to observe the surface of specimens as-cast and asopaque to cast body. Chemical formation of their elements was measured with EDS. Then hardness was measured with Micro Vicker¡¯s hardness tester. Shear bond strength test thirty specimens of 10 10 2 was prepared, veneered, 3 high and 3 in diameter, over the alloy specimens. The shear bond strength test was performed in a universal testing machine(UTM) with a cross head speed of 0.5 /min. Ultimate shear bond strength data were analyzed with one-way ANOVA and the Scheffe¡¯s test (P<0.05). Within the limits of this study, the following conclusions were drawn: The X-ray diffraction analysis results for the as-cast and as-opaque specimens showed that the major relative intensity of Bellabond plus alloy were changed smaller than Wirobond C and Alphadent Co-Cr
based alloys.
Results: Microstructural analysis results for the opaque specimens showed all the alloys increased carbides and precipitation(PPT). Alphadent Co-Cr based alloy showed the carbides of lamellar type. The Vickers hardness results for the opaque specimens showed Wirobond C and Alphadent Co-Cr based alloys were increaser than before ascast, but Bellabond plus alloy relatively decreased. The mean shear bond strengths ( ) were: 33.11 for Wirobond C/ZEO light; 25.00 for Alphadent Co-Cr alloy/ZEO light; 18.02 for Bellabond plus/ZEO light.
Conclusion: The mean shear bond strengths for Co-Cr and Ni-Cr based alloy were significantly different. But the all groups showed metal-metal oxide modes in shear bond strengths test at the interface.
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Cobalt-chromium alloy;X-ray diffraction analysis;SEM;EDS;Micorstructure;Vicker¡¯s hardness;Shear bond strength
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